SmartOne-M1.2 Residential Portable All-in-one Energy Storage System (Home-ESS / HESS)
• Applications: Residential, Household, Villa, Mansion, Home ESS (HESS) All-in-One
• Cell: LiFePO4
• MOQ: 5
• Delivery: 15 Days
• Customizable / OEM / ODM: Yes
• Factory: Redway, Dongguan, Guangdong, China
• Delivery Terms: FOB, EXW, CIF
• Payment: T/T, L/C, PayPal
• Sea / Air / Land Shipment: 10FT, 20FT, 40FT, 60FT
The SmartOne-M1.2 HESS is a versatile all-in-one energy storage solution that offers a compact and portable design for residential applications. With a capacity of 1.28kWh, this system is equipped to handle the energy demands of a typical household, providing a reliable backup power source during outages or peak energy consumption periods. The system operates at a nominal voltage of 24V, featuring a 24V (actually 25.6V) 50Ah configuration, which ensures efficient energy management and delivery.
The SmartOne-M1.2 HESS leverages the benefits of 50Ah LiFePO4 cells, which are known for their long lifespan, high safety, and stable performance. The system is designed to integrate seamlessly with home energy needs, functioning as an ESS (Energy Storage System) or HESS (Hybrid Energy Storage System) depending on the application.
This all-in-one solution is not only about storing energy but also about enhancing the overall energy efficiency of a home. It can be customized to meet specific energy requirements, and its modular design allows for scalability, making it suitable for a range of residential settings, from small households to larger villas or mansions.
The SmartOne-M1.2 HESS is a testament to the evolving landscape of residential energy management, offering homeowners a reliable, safe, and efficient way to store and utilize energy. With a commitment to quality and customer satisfaction, the system is backed by a 15-day delivery promise and a supportive customer service team ready to address any inquiries or concerns.
Packing & Delivery
Packaging:
- Carton box and pallet container.
- The packaging can be customized to meet different needs.
Shipping:
- New sample shipping takes 20-25 working days, while mass production requires 15-20 working days from receipt of deposit and sample confirmation.
- Sample orders ship via DHL, UPS, FedEx, or TNT, while bulk orders are sent by sea. We offer forwarding services upon request.
Our Services
OEM & ODM can customize according to your request :
- Battery voltage, capacity, and dimension.
- BMS charging and discharging current.
- Connector, case, and wire.
- Your own logo eg: silk print.
After-sales service is available :
- Respond in 24 hours to any inquiry on our product.
- Take action quickly for a normal customer’s claim within 12 hours.
- Good after-sales service: We offer 3 years quality warranty for lifepo4 batteries like 12-72V 20Ah/50Ah/100Ah/200Ah/500Ah/1000Ah/…
- One by one tested before shipment.
FAQs
Is Redway Power a trading company or factory?
Redway Power is a company with its own factory, integrating research, development, production, and sales.
How about the quality of Redway’s LiFePo4 Battery product?
Redway Power boasts over 12 years of experience in LiFePO4 battery production and is an authorized supplier for CATL and BYD.
Can you do an OEM/ODM project?
Yes, we have engineers available to assist in designing and developing any related products.
What’s your MOQ?
MOQ varies according to battery voltage and capacity.
What payment terms can we accept?
We accept TT/Paypal/West Union, etc.
Download SmartOne-M1.2 Datasheet
Note: Our products are customizable, allowing customers to modify the main data according to their requirements.
| SmartOne-M1.2 BATTERY MODULE and SYSTEM | Specifications |
|---|---|
| Cell Type | LiFePO4 |
| Rated Voltage | 25.6V |
| Rated Capacity | 50Ah |
| Battery Energy | 1.28kWh |
| Cycle Life (25°C / 77℉@60% DOD) | >8000 Cycles |
| Cycle Life (25°C / 77℉@80% DOD) | >6000 Cycles |
| Dimension [L x W x H] | 500 x 400 x 150 mm (include inverter) |
| Weight | 19kg (include inverter) |
| Charging Temperature | 0°C~50°C |
| Discharging Temperature | -15°C~50°C |
| LCD Screen | Yes |
| IP Grade | IP20 |
| Monitoring & Protection | Smart BMS: Overcharge / OverDischarge / Overcurrent / OverTemperature / ShortCircuit |
| Color | White |
| Design Life | 20 Years |
| Warranty | 10 Years |
| User Manual | With the Battery Packaging |
| Certification & Safety Standard | Design based on IEC62109-1&2, IEC62040-1, IEC62477-1 |
| SmartOne-M1.2 Inverter | Specifications |
|---|---|
| AC Voltage | 200~240V |
| Grid Frequency | 50Hz/60Hz |
| Input Power | 80W |
| AC Voltage | 230V |
| Grid Frequency | 50Hz/60Hz |
| Output Power | 1000W@25℃ |
| Max. PV Input Power | 400W@25℃ |
| Max. PV Input Current | 10A |
| MPPT Tracker/Strings | 1 |
| MPPT Voltage Range | 13V~60V |
| DC Output Power | 65Wmax(19V, 3.42A) |
| USB3.0*2 0utput Power | 18Wmax(5V3A, 9V2A, 12V1.5A) |
| Type-C Output Power | 100Wmax(5V3A, 9V3A, 12V3A, 15V3A, 20V5A) |
| Max. Solar Charging Power | 400W |
| Max. AC Charging Power | 80W |
Residential ESS Capacity and Efficiency
What factors determine residential ESS capacity needs?
The capacity of a residential ESS is primarily determined by the household's energy consumption, the number of appliances in use, and the desired backup duration. Additionally, local grid availability, the presence of renewable energy systems like solar panels, and peak load requirements also play significant roles in determining ESS capacity.
How to evaluate ESS efficiency for home use?
To evaluate ESS efficiency, assess its round-trip efficiency, which is the ratio of energy output to energy input. Higher efficiency means less energy loss during charging and discharging. Also, consider the system’s charge-discharge cycle rate, as longer cycles indicate better longevity and energy conservation for the home.
What safety standards apply to residential ESS?
Residential ESS must comply with UL 9540 or IEC 62619 standards to ensure safe operation. These standards address risks related to battery management, fire protection, and thermal runaway. Ensuring proper ventilation and the use of certified batteries helps mitigate risks and ensures safe system integration in homes.
How to compare ESS upfront and long-term costs?
To compare ESS costs, examine the initial price of the system, including installation and peripheral equipment, and estimate the long-term operational costs, such as maintenance and energy savings. Consider the lifetime of the system, as a higher upfront cost may be offset by longer durability and lower energy bills over time.
Which brands lead in residential ESS reliability?
Top brands leading in residential ESS reliability include Tesla Powerwall, LG Chem, and Sonnen. These brands are known for their high performance, advanced technology, and long warranty periods. They offer scalable solutions for homeowners seeking consistent and efficient energy storage systems with proven reliability.
How to ensure ESS compatibility with solar panels?
To ensure ESS compatibility with solar panels, verify that the inverter is compatible with both the ESS and the solar system. Additionally, the voltage and capacity of the ESS should match the solar panel output. A properly integrated system maximizes efficiency and ensures optimal energy storage and usage.
Chinese Portable Energy Storage Systems
Top Chinese brands for portable home energy storage?
Leading Chinese brands in portable home energy storage include BYD, Ganfeng Lithium, and Sungrow. These companies offer innovative, high-quality battery solutions for households looking to store energy from solar or grid systems. Their products are renowned for reliability and scalability in various portable storage applications.
Key features of China's best portable energy systems?
The best portable energy systems in China feature high energy density, modular design, and quick charging capabilities. They are also known for compactness, which allows easy transportation, and advanced battery management systems (BMS) that enhance safety and efficiency. These systems are suitable for both emergency and everyday use.
Market trends in China's portable energy storage sector?
The Chinese portable energy storage sector is seeing trends like increased demand for sustainable materials, integration of AI and IoT, and modular designs. There is also growing interest in lithium-ion batteries due to their higher efficiency and longer lifespan. These trends reflect a shift towards more eco-friendly and smart energy storage solutions.
Portable storage solutions for emergency power in China?
Portable energy storage solutions in China offer emergency power during grid outages, providing reliable backup for homes and businesses. These systems are typically lightweight, with solar integration for recharging, and can power essential devices like refrigerators or medical equipment. They provide a cost-effective way to maintain energy independence during power failures.
Eco-friendly portable energy storage options in China?
Eco-friendly portable energy storage solutions in China include lithium iron phosphate (LiFePO4) batteries, which are known for their low environmental impact and high safety standards. These systems are recyclable, reducing toxic waste, and have a longer lifespan, making them a sustainable choice for portable energy needs.
Safety standards for portable energy storage in China?
Portable energy storage systems in China must adhere to safety standards such as GB/T 31467.3 and UL 1973, which regulate battery performance, thermal management, and fire prevention. These standards ensure safe operation, reducing risks such as short-circuiting, overcharging, or thermal runaway in portable energy systems.
Residential ESS Technologies and Smart Home Integration
Key features of residential ESS technologies?
Residential ESS technologies typically include lithium-ion batteries, solar panel integration, and smart monitoring systems. These features allow users to store excess energy, monitor battery health, and ensure efficient energy use within the home. They also offer scalability, enabling future system expansion as energy needs grow.
ESS efficiency metrics for smart homes?
For smart homes, ESS efficiency metrics focus on round-trip efficiency, which measures the ratio of usable energy output to input, and depth of discharge (DoD), which impacts battery lifetime. A higher round-trip efficiency and moderate DoD ensure optimal performance and lower long-term operational costs for smart homes.
Cost-benefit analysis of home ESS solutions?
When conducting a cost-benefit analysis of home ESS solutions, consider initial costs, installation fees, and long-term energy savings. Factor in the lifetime of the system, reduced electricity bills, and potential incentives. A more expensive ESS might offer better efficiency and a longer lifespan, yielding higher returns over time.
Integration challenges with existing home systems?
Integration of an ESS with existing home systems can present challenges like incompatibility with older inverters, insufficient grid connections, or improper battery sizing. Ensuring proper compatibility between the ESS, solar panels, and home appliances requires expert installation and system design.
User preferences in ESS for smart homes?
Users prefer ESS solutions for smart homes that offer easy integration, remote monitoring, and automatic energy management. Features like real-time data access and energy usage reports allow homeowners to optimize their systems for cost savings and enhanced energy independence.
Future trends in residential ESS development?
Future trends in residential ESS development include smarter integration with IoT devices, enhanced battery management systems for longevity, and AI-driven algorithms to optimize energy usage. With growing demand for renewable energy and sustainability, residential ESS will become more affordable, efficient, and accessible for homeowners.
Portable Energy Systems for Households
Why are portable energy systems essential for households?
Portable energy systems provide backup power during outages, energy independence, and sustainability. They are especially useful for households in areas with unreliable grids, allowing for reliable power to essential devices such as lights, refrigerators, and medical equipment during emergencies.
How do portable systems provide backup during outages?
Portable energy systems provide backup power by storing energy in batteries, which can then be used to run critical appliances during power outages. These systems are typically equipped with solar panels for recharging, making them a reliable and eco-friendly solution for off-grid living or backup power.
Can portable storage integrate with renewable energy sources?
Yes, portable energy storage systems can integrate with renewable energy sources such as solar panels or wind turbines. This integration allows homeowners to store excess energy produced during peak generation times, ensuring continuous power even when renewable sources are not actively generating energy.
What cost savings do portable energy systems offer?
Portable energy systems can offer cost savings by reducing reliance on grid electricity, especially during peak pricing periods. By storing solar energy or using low-cost energy for high-demand times, these systems can help lower electricity bills and provide long-term savings.
How do portable systems enhance energy independence?
Portable energy systems enhance energy independence by allowing homeowners to generate and store their own energy. This reduces reliance on local utilities, enabling self-sufficiency and more control over energy use, especially in areas prone to outages or with high electricity costs.
What environmental impacts do portable energy systems reduce?
Portable energy systems reduce carbon emissions by enabling the use of clean energy from solar or wind sources. They also minimize waste compared to traditional fossil-fuel-powered generators and contribute to sustainability by lowering the demand for grid electricity.
HESS Installation and Maintenance
What steps are involved in residential HESS installation?
Residential HESS installation involves several key steps: assessing energy needs, selecting the appropriate battery capacity, installing the inverter and battery storage, and integrating the system with solar panels. Ensure proper wiring and safety
checks, followed by system testing to ensure optimal performance.
How to ensure safety compliance during HESS installation?
Ensure safety compliance during HESS installation by following local electrical codes, using certified batteries and components, and conducting a thorough risk assessment. Hire licensed professionals to ensure proper grounding, wiring, and fire safety measures are implemented to minimize risks.
What maintenance is required for residential HESS systems?
Residential HESS systems require periodic battery checks, cleaning of components, and ensuring that the inverter and charging system are functioning properly. Regular software updates and monitoring of energy storage levels help maintain system efficiency and maximize lifespan.
How often should residential HESS units be inspected?
Residential HESS units should be inspected at least annually for signs of wear, battery degradation, and to ensure that the system is operating at optimal efficiency. More frequent checks may be necessary if the system is subject to heavy usage or extreme weather conditions.
What are common issues in residential HESS maintenance?
Common issues in HESS maintenance include battery degradation, inverter malfunction, and inconsistent charging. Overcharging, poor ventilation, and corrosion can also reduce system lifespan. Regular inspections and updating firmware can help identify and resolve these issues early.
How to assess HESS cost-effectiveness for homeowners?
Assess the cost-effectiveness of a residential HESS by comparing the initial investment with the long-term energy savings and system durability. Consider maintenance costs, warranty coverage, and any available tax incentives for renewable energy systems. The payback period is key in determining the system's viability for homeowners.
